Spleen and bone marrow (BM) are the major sites of antibody production and anamnestic response in systemically immunized mice. We examined the VDJ segment repertoire of antibody plaque-forming cells (APFC) in those two sites in the course of antibody responses to the hapten nitrophenyl (NP). Individual IgG APFC expressed any one of 10 V(H) segments of the V186.2/V3 (J558) gene family: 186.2, 102, 23, C1H4, 165.l, CH10, 3, 593.3, 24.8 and 671.5. The majority of cells in both spleen and BM expressed the V186.2 gene joined to a D segment with Tyr95. During a 2-month period after a single immunization, the V186.2(+) APFC in BM accumulated 3 times as many somatic mutations than splenic APFC (average 8.5 versus 3 mutations/V(H)); this process was T(h) dependent as shown by in vivo depletion of CD4(+) lymphocytes. However, the V186.2(+) APFC in both spleen and BM shared a recurrent W33L replacement, indicating their common origin from germinal centers. The APFC expressing the other (analogue) V(H) segments were evenly represented in the spleen and BM, but they accumulated few, if any, mutations. The anamnestic V186.2(+) APFC were highly mutated both in the spleen and BM; they represented a new and unexpected clonotype. The V/D segments were joined by Gly95 instead of Tyr95, the W33L was absent and a new shared K58R replacement appeared. The APFC expressing the 'analogue' V(H) genes comprised approximately 20% of the anamnestic response and did not accumulate more mutations, but their affinities were in the range of the memory V186.2(+) cells. These data suggest that the late primary and secondary responses to a hapten may be born by different B cell lineages, and that some clonotypes may reach the memory pool without an extensive mutation and expansion.
The primary burst of Ab and germinal center (GC) formation in response to T-dependent Ag is compromised in aging mice. Here we examine the effects of aging on the post-GC phase of memory B cell differentiation and the late Ab repertoire maturation in bone marrow (BM) in mice immunized with a hapten nitrophenyl coupled to chicken γ-globulin. Specific Ab-forming cells (AFC) with mutated VH genes accumulated preferentially in the BM of aged mice, although the AFC numbers and average number of mutations per VH were lower, and the D gene usage was less restricted compared with those in the young animals. However, the repertoire of AFC after an Ag boost demonstrated the hallmarks of Ag selection, including the recurrent mutations and canonical VD rearrangements, similar to the late primary response in young animals. It is postulated that the Ab repertoire maturation in aged mice is delayed and may be notably improved by repeated immunizations.
We used the antiphosphocholine response induced by Proteus morganii and an adoptive transfer protocol to study the contribution of individual clones to B cell memory. Spleen cells from donor mice immunized with P. morganii were injected into irradiated hosts. These recipients were then immunized and their spleen cells fused 12 to 14 wk thereafter. The sequences of hybridoma VH and VL were obtained and DNA rearrangements at both V region loci were studied to ascertain clonal relationships. In all three adoptive transfer experiments, each mouse of a pair receiving cells from the same donor contained hybridomas which were clonally related to each other. In two of these experiments paired recipients possessed cells that had identically mutated V genes. These results lead us to conclude that once a B cell clone(s) dominates a response, progeny of that clone form the memory cell population for many months. Moreover, stability appears to be generated in some memory B cells through inactivation of the hypermutation mechanism.
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